Potential impact of climate warming on the recruitment of an economically and ecologically important species, the European lobster (Homarus gammarus) at Helgoland, North Sea

Schmalenbach, Isabel; Franke, Heinz-Dieter

doi:10.1007/s00227-010-1394-8

Cited by 40 publications

(35 citation statements)

References 32 publications

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“…However, the timing of moulting varied by few weeks only depending on different seasonal temperature regimes (Templeman 1940). In another study, no moulting occurred at or below 108C in lobster larvae (Schmalenbach & Franke 2010), and Aiken & Waddy (1976) reported that in lobsters held below 68C the moult induction was blocked.…”

Section: Discussionmentioning

confidence: 94%

“…Temperature thresholds appear to be associated with several stages of the lobster life cycle at Helgoland. The timing of embryogenesis and larval hatch was strongly dependent on late winter and spring temperatures (Schmalenbach & Franke 2010). In juvenile lobsters first moults and enhanced locomotory activity started when a threshold between 12 and 158C was passed independent of year class, which means also independent of size, underlining the importance of the temperature factor.…”

Section: Activity Of Juvenile European Lobsters 23mentioning

confidence: 97%

“…The temperature 20 I. Schmalenbach and F. Buchholz recorded reflected the sea surface temperature at Helgoland (Schmalenbach & Franke 2010), but as a result of the construction of the seawater supply system in the laboratory, water temperatures were on average 1Á28C higher than in the field.…”

Section: Moulting Activitymentioning

confidence: 99%

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Effects of temperature on the moulting and locomotory activity of hatchery-reared juvenile lobsters (Homarus gammarus) at Helgoland (North Sea)

Schmalenbach

Búchholz

2013

Marine Biology Research

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Section: Discussionmentioning

confidence: 94%

Section: Activity Of Juvenile European Lobsters 23mentioning

confidence: 97%

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Effects of temperature on the moulting and locomotory activity of hatchery-reared juvenile lobsters (Homarus gammarus) at Helgoland (North Sea)

Schmalenbach

Búchholz

2013

Marine Biology Research

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“…This approach was used to determine the duration of the larval stages at the given experimental conditions (Table 1). Additional data about the duration of larval development were provided by Schmalenbach and Fanke (2010).…”

Section: Maintenance and Rearing Of Lobster Larvaementioning

confidence: 99%

“…Within about 14 days, the larvae pass three zoea stages and molt into the first juvenile stage (Charmantier et al 1991;Schmalenbach and Fanke 2010). Similar to the adults, the larvae have to reduce and re-organize their muscles as well as the connective tissue.…”

Section: Introductionmentioning

confidence: 99%

Proteasomal activities in the claw muscle tissue of European lobster, Homarus gammarus, during larval development

Götze

Saborowski

2011

J Comp Physiol B

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Decapod crustaceans grow discontinuously and gain size through complex molt processes. The molt comprises the loss of the old cuticle and, moreover, substantial reduction and re-organization of muscles and connective tissues. In adult lobsters, the muscle tissue of the massive claws undergoes significant atrophy of 40-75% before ecdysis. The degradation of this tissue is facilitated by calcium-dependent proteases and by the proteasome, an intra-cellular proteolytic multi-enzyme complex. In contrast to the adults, the involvement of the proteasome during the larval development is yet not validated. Therefore, we developed micro-methods to measure the 20S and the 26S proteasomal activities within mg-and sub-mg-quantities of the larval claw tissue of the European lobster, Homarus gammarus. Within the three larval stages (Z1-3) we distinguished between sub-stages of freshly molted/hatched (post-molt), inter-molt, and ready to molt (pre-molt) larvae. Juveniles were analyzed in the post-molt and in the inter-molt stage. The trypsin-like, the chymotrypsin-like, and the peptidyl-glutamyl peptide hydrolase activity (PGPH) of the 20S proteasome increased distinctly from freshly hatched larvae to pre-molt Z1. During the Z2 stage, the activities were highest in the post-molt animals, decreased in the inter-molt animals and increased again in the pre-molt animals. A similar but less distinct trend was evident in the Z3 stages. In the juveniles, the proteasomal activities decreased toward the lowest values. A similar pattern was present for the chymotrypsin-like activity of the 26S proteasome. The results show that the proteasome plays a significant role during the larval development of lobsters. This is not only reflected by the elevated activities, but also by the continuous change of the trypsin/ chymotrypsin-ratio which may indicate a shift in the subunit composition of the proteasome and, thus, a biochemical adjustment to better cope with elevated protein turnover rates during larval development.

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Was der Helgoländer Hummer mit der Energiewende zu tun hat

Kohl

2014

Biologie in unserer Zeit

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Potential impact of climate warming on the recruitment of an economically and ecologically important species, the European lobster (Homarus gammarus) at Helgoland, North Sea

Cited by 40 publications

References 32 publications

Effects of temperature on the moulting and locomotory activity of hatchery-reared juvenile lobsters (Homarus gammarus) at Helgoland (North Sea)

Effects of temperature on the moulting and locomotory activity of hatchery-reared juvenile lobsters (Homarus gammarus) at Helgoland (North Sea)

Proteasomal activities in the claw muscle tissue of European lobster, Homarus gammarus, during larval development

Was der Helgoländer Hummer mit der Energiewende zu tun hat

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